Rev. 1 March 20 User manual Document information Info Keywords Abstract Content NVT, voltage translator, level translator, level shift, passive voltage translator, passive level translator, passive level shift, I2C-bus, SMBus, SPI, NVT200, NVT2010 NXP Voltage Translators (NVT) are used in bidirectional signaling voltage level translation applications for I/O buses with incompatible logic levels. The NVT200 and NVT2010 are eight- and ten-channel voltage translators, operational from 1.0 V to 3.6 V at V CC(A) (low voltage side) and 1. V to 5.5 V at V CC(B) (high voltage side) without direction control for open-drain or push-pull I/O devices.
Revision history Rev Date Description v.1 20030 user manual; initial release Contact information For more information, please visit: http://www.nxp.com For sales office addresses, please send an email to: salesaddresses@nxp.com All information provided in this document is subject to legal disclaimers. NXP B.V. 20. All rights reserved. User manual Rev. 1 March 20 2 of
1. Introduction The NVT200PW (OM1331) and NVT2010PW (OM13324) demo boards are designed to let customers evaluate the NXP -channel and 10-channel bidirectional voltage level translators. The demo boards interface between device I/Os operating at different voltage levels. Since the NVT200PW and NVT2010PW devices are passive devices, pull-up resistors may be needed depending on the I/O interface type (totem pole or open-drain), difference in translation voltage, and the translation direction (high-to-low voltage, low-to-high voltage, or bidirectional). The NVT200PW and NVT2010PW devices allow translations between any voltages from 1.0 V to 5.5 V. Please refer to NVT200/NVT2010 data sheet (Ref. 1) and application note AN (Ref. 2) for more detailed information. 019aac13 019aac14 a. NVT200PW (OM1331) b. NVT2010PW (OM13324) Fig 1. Bidirectional voltage level translators demo boards All information provided in this document is subject to legal disclaimers. NXP B.V. 20. All rights reserved. User manual Rev. 1 March 20 3 of
2. Hardware description 2.1 Schematic The demo boards contain footprints for the NVT200PW and NVT2010PW devices, the jumpers, headers, and passive components are shared. The NVT200PW and NVT2010PW demo board schematic is shown in Figure 2. Pins 2 and 3 on J1 must be shorted to enable the part. Pins 1 and on J2 are power and GND for the low voltage side. Pins 1 and on J4 are power and GND for the high voltage side. All Bn I/O pins on the right side have 10 kω pull-up resistors to VREFB and all An I/O pins on the left side have 10 kω pull-up resistors to VREFA through jumper J3. A shunt must be installed at J3 if VREFB VREFA < 1 V. If VREFB VREFA 1 V, then the J3 jumper should be open and resistors R2 through R must be removed. If they are not removed, then a resistive path exists between the A-side I/Os that can impact the efficiency and signal integrity of the solution. low voltage A-side J2 1 2 3 4 5 6 9 10 MA-1 VREFA A A A9 0 GND Jumper J3: ON: if VREFB VREFA < 1 V OFF: if VREFB VREFA 1 V (R2 to R pull-up resistors must be removed) 1 2 R2 10 kω R3 10 kω R4 10 kω R5 10 kω R6 10 kω R 10 kω R 10 kω R9 10 kω R10 10 kω R 10 kω A A A9 0 J3 BUS_A[1:10] GND 1 VREFA 2 A A A9 0 NVT2010PW EN 24 VREFB 23 B1 3 22 4 21 5 20 6 19 9 10 U1 1 1 16 15 14 13 GND B B B9 B10 J1 Jumper J1: 2-3: switch enable 1-2: switch disable open: switch enable control input to J1-2 BUS_B[1:10] 1 2 3 R1 200 kω EN_VB C1 0.1 μf R 10 kω R13 10 kω R14 10 kω R15 10 kω R16 10 kω R1 10 kω R1 10 kω R19 10 kω R20 10 kω R21 10 kω B10 B9 B B B1 high voltage B-side VREFB 1 B1 2 B B B9 B10 GND J4 3 4 5 6 9 10 MA-1 GND 1 VREFA 2 NVT200PW EN 20 VREFB 19 B1 3 1 4 1 5 16 6 15 A A 9 10 14 13 B B U2 002aag943 Fig 2. NVT200PW and NVT2010PW demo board schematic All information provided in this document is subject to legal disclaimers. NXP B.V. 20. All rights reserved. User manual Rev. 1 March 20 4 of
Table 1. 3. References 2.2 Jumper and header functions The functions of the jumpers and headers on these demo boards are shown in Table 1. Header descriptions for NVT200PW (OM1331) and NVT2010PW (OM13324) demo boards Jumper/header Function Notes J1 (3-pin) J2 (-pin) J3 (3-pin) J4 (-pin) Device switch enable or disable control Low voltage VREFA, GND and An I/O signal connect pins Connects 10 kω pull-up resistors to VREFA on low voltage side for VREFB VREFA < 1 V application required High voltage VREFB, GND and Bn I/O signal connect pins Short pins 2 and 3 to enable the NVT200PW or NVT2010PW device (default). When pins 1 and 2 are shorted, the device is disabled. Pin 1 = VREFA: low voltage power. Pin = GND: low voltage ground. A[1:] are low voltage signals for NVT200PW. A[1:10] are low voltage signals for NVT2010PW. Short pins 1 and 2 to connect 10 kω pull-up resistors to VREFA on low voltage side (default). Remark: Pins 1 and 2 must be open and 10 kω pull-up resistors must be removed when VREFB VREFA 1V. Pin 1 = VREFB: high voltage power. Pin = GND: high voltage ground. B[1:] are high voltage signals for NVT200PW. B[1:10] are high voltage signals for NVT2010PW. [1] NVT200; NVT2010, Bidirectional voltage-level translator for open-drain and push-pull applications Product data sheet; ; www.nxp.com/documents/data_sheet/nvt200_nvt2010.pdf [2] AN, Bidirectional voltage level translators NVT20xx, PCA9306, GTL2000, GTL2002, GTL2003, GTL2010 application note; ; www.nxp.com/documents/application_note/an.pdf All information provided in this document is subject to legal disclaimers. NXP B.V. 20. All rights reserved. User manual Rev. 1 March 20 5 of
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All information provided in this document is subject to legal disclaimers. NXP B.V. 20. All rights reserved. User manual Rev. 1 March 20 6 of
5. Contents 1 Introduction............................ 3 2 Hardware description.................... 4 2.1 Schematic............................. 4 2.2 Jumper and header functions.............. 5 3 References............................. 5 4 Legal information........................ 6 4.1 Definitions............................. 6 4.2 Disclaimers............................ 6 4.3 Trademarks............................ 6 5 Contents............................... Please be aware that important notices concerning this document and the product(s) described herein, have been included in section Legal information. NXP B.V. 20. All rights reserved. For more information, please visit: http://www.nxp.com For sales office addresses, please send an email to: salesaddresses@nxp.com Date of release: March 20 Document identifier: